U.S. patent application number 14/612839 was filed with the patent office on 2015-08-27 for component mounting line and component mounting method.
The applicant listed for this patent is PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.. Invention is credited to Takashi KATSUKI, Masayuki MANTANI, Minoru MURAKAMI, Toshiyuki MURAKAMI, Takashi YAZAWA.
Application Number | 20150245500 14/612839 |
Document ID | / |
Family ID | 53883645 |
Filed Date | 2015-08-27 |
United States Patent
Application |
20150245500 |
Kind Code |
A1 |
MURAKAMI; Minoru ; et
al. |
August 27, 2015 |
COMPONENT MOUNTING LINE AND COMPONENT MOUNTING METHOD
Abstract
A component mounting line has a screen printing apparatus and
component mounting apparatuses. The screen printing apparatus
carries in substrates based on substrate carrying-in order data
which is determined so that alternate carrying-in in which a first
type substrate and a second type substrate are alternately carried
in and continuous carrying-in in which the first type substrate or
the second type substrate which has a shorter line tact time is
continuously carried in are mixed.
Inventors: |
MURAKAMI; Minoru;
(Yamanashi, JP) ; MANTANI; Masayuki; (Yamanashi,
JP) ; MURAKAMI; Toshiyuki; (Yamanashi, JP) ;
KATSUKI; Takashi; (Yamanashi, JP) ; YAZAWA;
Takashi; (Yamanashi, JP) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD. |
Osaka |
|
JP |
|
|
Family ID: |
53883645 |
Appl. No.: |
14/612839 |
Filed: |
February 3, 2015 |
Current U.S.
Class: |
228/180.21 ;
228/6.2 |
Current CPC
Class: |
H05K 13/0465 20130101;
B23K 37/04 20130101; B23K 3/0638 20130101; H05K 13/085 20180801;
H05K 3/341 20130101; H05K 3/1233 20130101; H05K 3/3485
20200801 |
International
Class: |
H05K 3/34 20060101
H05K003/34 |
Foreign Application Data
Date |
Code |
Application Number |
Feb 27, 2014 |
JP |
2014-036325 |
Claims
1. A component mounting line comprising: a screen printing
apparatus that prints paste on a substrate; and a plurality of
component mounting apparatuses that are arranged in series on a
downstream side of the screen printing apparatus and perform a
component mounting-relevant operation on the substrate on which the
paste has been printed by the screen printing apparatus, wherein
the screen printing apparatus includes a mask in which a first
pattern-forming area in which a first pattern corresponding to a
first type substrate is formed and a second pattern-forming area in
which a second pattern corresponding to a second type substrate is
formed are arranged in a predetermined pattern arrangement
direction, a substrate support unit moving mechanism that moves a
substrate support unit supporting a substrate in the pattern
arrangement direction below the mask and that selectively brings
the substrate into contact with one of the first pattern-forming
area and the second pattern-forming area, and a print head that
prints the paste on the substrate selectively brought into contact
with one of the first pattern-forming area and the second
pattern-forming area by moving over the mask, wherein each of the
plurality of component mounting apparatuses includes a first
substrate carrying lane and a second substrate carrying lane which
are arranged in the pattern arrangement direction, carries the
first type substrate on which the first pattern has been printed in
the first substrate carrying lane, performs a component
mounting-relevant operation on the first type substrate, carries
the second type substrate on which the second pattern has been
printed in the second substrate carrying lane, and performs a
component mounting-relevant operation on the second type substrate,
and wherein the screen printing apparatus carries in substrates
based on substrate carrying-in order data which is determined so
that alternate carrying-in in which the first type substrate and
the second type substrate are alternately carried in and continuous
carrying-in in which the first type substrate or the second type
substrate which has a shorter line tact time is continuously
carried in are mixed.
2. The component mounting line according to claim 1, wherein the
continuous carrying-in is periodically repeated in the substrate
carrying-in order data and the period is determined based on a line
tact time of the first type substrate and a line tact time of the
second type substrate.
3. A component mounting method in a component mounting line
including a screen printing apparatus that prints paste on a
substrate and a plurality of component mounting apparatuses that
are arranged in series on a downstream side of the screen printing
apparatus and perform a component mounting-relevant operation on
the substrate on which the paste has been printed by the screen
printing apparatus, the screen printing apparatus including a mask
in which a first pattern-forming area in which a first pattern
corresponding to a first type substrate is formed and a second
pattern-forming area in which a second pattern corresponding to a
second type substrate is formed are arranged in a predetermined
pattern arrangement direction, a substrate support unit moving
mechanism that moves a substrate support unit supporting a
substrate in the pattern arrangement direction below the mask and
that selectively brings the substrate into contact with one of the
first pattern-forming area and the second pattern-forming area, and
a print head that prints the paste on the substrate selectively
brought into contact with one of the first pattern-forming area and
the second pattern-forming area by moving over the mask, each of
the plurality of component mounting apparatuses including a first
substrate carrying lane and a second substrate carrying lane which
are arranged in the pattern arrangement direction, the component
mounting method comprising: a first operation step in which the
each component mounting apparatus carries the first type substrate
on which the first pattern has been printed in the first substrate
carrying lane and performs a component mounting-relevant operation
on the first type substrate; a second operation step in which the
each component mounting apparatus carries the second type substrate
on which the second pattern has been printed in the second
substrate carrying lane and performs a component mounting-relevant
operation on the second type substrate; an alternate carrying-in
step in which the screen printing apparatus alternately carries in
the first type substrate and the second type substrate; and a
continuous carrying-in step in which the screen printing apparatus
continuously carries in the first type substrate or the second type
substrate which has a shorter line tact time.
4. The component mounting method according to claim 3, wherein the
continuous carrying-in step is periodically repeated and the period
is determined based on a line tact time of the first type substrate
and a line tact time of the second type substrate.
Description
CROSS REFERENCE TO RELATED APPLICATION(S)
[0001] The present disclosure relates to the subject matters
contained in Japanese Patent Application No. 2014-036325 filed on
Feb. 27, 2014, which are incorporated herein by reference in its
entirety.
FIELD
[0002] An embodiment of the present invention relates to a
component mounting line that includes a screen printing apparatus
printing paste on a substrate and plural component mounting
apparatuses arranged in series on the downstream side of the screen
printing apparatus and performing a component mounting-relevant
operation on the substrate on which the paste has been printed by
the screen printing apparatus and a component mounting method
thereof.
BACKGROUND
[0003] In the related art, a component mounting line is known which
includes a screen printing apparatus printing paste on a substrate
and plural component mounting apparatuses arranged in series on the
downstream side of the screen printing apparatus so as to perform a
component mounting-relevant operation on the substrate on which the
paste has been printed by the screen printing apparatus. In a type
of the component mounting line, two types of substrates are
alternately printed by selectively performing a screen printing
operation on two types of substrates with a single mask having a
first pattern corresponding to a first type substrate and a second
pattern corresponding to a second type substrate. The plural
component mounting apparatuses installed on the downstream side of
the screen printing apparatus carry the first type substrate in one
substrate carrying lane out of two substrate carrying lanes, mount
components on the first type substrate, carry the second type
substrate in the other substrate carrying lane, and mount the
components on the second type substrate (For example, see Patent
Document 1).
[0004] Patent Document 1 is JP-A-2011-143640.
SUMMARY
[0005] However, in the component mounting line, when a line tact
time (a production tact time of a component mounting apparatus
serving as a bottleneck out of plural component mounting
apparatuses constituting a line for each substrate carrying lane)
on the downstream side of the screen printing apparatus is
different between two types of substrates, there is a problem in
that production efficiency of the component mounting line
decreases. Specifically, the screen printing apparatus alternately
performs printing on two types of substrates (a substrate with a
longer line tact time and a substrate with a shorter line tact
time) and carries out the substrates to the component mounting
apparatus installed on the downstream side thereof. Accordingly,
when the component mounting-relevant operation on the substrate
with a longer line tact time carried out to one substrate carrying
lane is not first ended but the component mounting-relevant on the
substrate with a shorter line tact time carried out to the other
substrate carrying lane later is ended, the screen printing
apparatus cannot carry out the substrate with a shorter line tact
time to the other substrate carrying lane and thus the production
efficiency of the component mounting line may decrease.
[0006] Therefore, an object of the embodiment is to provide a
component mounting line and a component mounting method that can
prevent a decrease in production efficiency of the component
mounting line for sequentially performing a printing operation on
two types of substrates having different line tact times using a
single mask, performing a component mounting-relevant operation on
the substrate with a longer line tact time in one substrate
carrying lane on the downstream side thereof, and performing a
component mounting-relevant operation on the substrate with a
shorter line tact time in the other substrate carrying lane.
[0007] According to the embodiment, there is provided a component
mounting line including: a screen printing apparatus that prints
paste on a substrate; and a plurality of component mounting
apparatuses that are arranged in series on a downstream side of the
screen printing apparatus and perform a component mounting-relevant
operation on the substrate on which the paste has been printed by
the screen printing apparatus, wherein the screen printing
apparatus includes a mask in which a first pattern-forming area in
which a first pattern corresponding to a first type substrate is
formed and a second pattern-forming area in which a second pattern
corresponding to a second type substrate is formed are arranged in
a predetermined pattern arrangement direction, a substrate support
unit moving mechanism that moves a substrate support unit
supporting a substrate in the pattern arrangement direction below
the mask and that selectively brings the substrate into contact
with one of the first pattern-forming area and the second
pattern-forming area, and a print head that prints the paste on the
substrate selectively brought into contact with one of the first
pattern-forming area and the second pattern-forming area by moving
over the mask, wherein each of the plurality of component mounting
apparatuses includes a first substrate carrying lane and a second
substrate carrying lane which are arranged in the pattern
arrangement direction, carries the first type substrate on which
the first pattern has been printed in the first substrate carrying
lane, performs a component mounting-relevant operation on the first
type substrate, carries the second type substrate on which the
second pattern has been printed in the second substrate carrying
lane, and performs a component mounting-relevant operation on the
second type substrate, and wherein the screen printing apparatus
carries in substrates based on substrate carrying-in order data
which is determined so that alternate carrying-in in which the
first type substrate and the second type substrate are alternately
carried in and continuous carrying-in in which the first type
substrate or the second type substrate which has a shorter line
tact time is continuously carried in are mixed.
[0008] According to the embodiment of the invention, there is
provided a component mounting method in a component mounting line
including a screen printing apparatus that prints paste on a
substrate and a plurality of component mounting apparatuses that
are arranged in series on a downstream side of the screen printing
apparatus and perform a component mounting-relevant operation on
the substrate on which the paste has been printed by the screen
printing apparatus, the screen printing apparatus including a mask
in which a first pattern-forming area in which a first pattern
corresponding to a first type substrate is formed and a second
pattern-forming area in which a second pattern corresponding to a
second type substrate is formed are arranged in a predetermined
pattern arrangement direction, a substrate support unit moving
mechanism that moves a substrate support unit supporting a
substrate in the pattern arrangement direction below the mask and
that selectively brings the substrate into contact with one of the
first pattern-forming area and the second pattern-forming area, and
a print head that prints the paste on the substrate selectively
brought into contact with one of the first pattern-forming area and
the second pattern-forming area by moving over the mask, each of
the plurality of component mounting apparatuses including a first
substrate carrying lane and a second substrate carrying lane which
are arranged in the pattern arrangement direction, the component
mounting method including: a first operation step in which the each
component mounting apparatus carries the first type substrate on
which the first pattern has been printed in the first substrate
carrying lane and performs a component mounting-relevant operation
on the first type substrate; a second operation step in which the
each component mounting apparatus carries the second type substrate
on which the second pattern has been printed in the second
substrate carrying lane and performs a component mounting-relevant
operation on the second type substrate; an alternate carrying-in
step in which the screen printing apparatus alternately carries in
the first type substrate and the second type substrate; and a
continuous carrying-in step in which the screen printing apparatus
continuously carries in the first type substrate or the second type
substrate which has a shorter line tact time.
[0009] According to the embodiment, it is possible to prevent a
decrease in production efficiency of a component mounting line for
sequentially performing a printing operation on two types of
substrates having different line tact times using a single mask,
performing a component mounting-relevant operation on a substrate
having a longer line tact time in one substrate carrying lane on
the downstream side thereof, and performing a component
mounting-relevant operation on a substrate having a shorter line
tact time in the other substrate carrying lane.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] A general configuration that implements the various features
of the invention will be described with reference to the drawings.
The drawings and the associated descriptions are provided to
illustrate embodiments of the invention and should not limit the
scope of the invention.
[0011] FIG. 1 is a plan view of a component mounting line according
to an embodiment of the invention.
[0012] FIG. 2 is a plan view of a part of the component mounting
line according to the embodiment of the invention.
[0013] FIG. 3 is a plan view of a screen printing apparatus of the
component mounting line according to the embodiment of the
invention.
[0014] FIG. 4 is a lateral view of the screen printing apparatus
according to the embodiment of the invention.
[0015] FIG. 5 is a plan view of a mask of the screen printing
apparatus according to the embodiment of the invention.
[0016] FIGS. 6A and 6B are partial lateral views of the screen
printing apparatus according to the embodiment of the
invention.
[0017] FIG. 7 is a block diagram illustrating a control system of
the screen printing apparatus according to the embodiment of the
invention.
[0018] FIGS. 8A and 8B are diagrams illustrating operations of the
screen printing apparatus according to the embodiment of the
invention.
[0019] FIGS. 9A and 9B are diagrams illustrating operations of the
screen printing apparatus according to the embodiment of the
invention.
[0020] FIGS. 10A and 10B are diagrams illustrating operations of
the screen printing apparatus according to the embodiment of the
invention.
[0021] FIGS. 11A and 11B are diagrams illustrating operations of
the screen printing apparatus according to the embodiment of the
invention.
[0022] FIG. 12 is a diagram illustrating operations of the
component mounting line according to the embodiment of the
invention.
[0023] FIG. 13 is a diagram illustrating operations of the
component mounting line according to the embodiment of the
invention.
[0024] FIG. 14 is a diagram illustrating operations of the
component mounting line according to the embodiment of the
invention.
DETAILED DESCRIPTION OF THE EMBODIMENTS
[0025] Hereinafter, an embodiment of the invention will be
described with reference to the accompanying drawings. FIG. 1
illustrates a component mounting line 1 according to the embodiment
of the invention, and FIG. 2 illustrates apart (area H in FIG. 1)
of the component mounting line 1. The component mounting line 1 is
used to mount components 3 on substrates 2 to manufacture
component-mounted substrates and includes a screen printing
apparatus 5 printing paste Pst such as solder on an electrode 2a of
the substrate 2 supplied from a substrate supply apparatus 4 and
plural component mounting apparatuses 6 arranged in series on the
downstream side of the screen printing apparatus 5. Here, the
component mounting apparatus 6 is an apparatus that performs a
component mounting-relevant operation on the substrate 2 on which
the paste Pst has been printed by the screen printing apparatus 5,
and examples thereof include an inspection apparatus that is
installed on the downstream side of the screen printing apparatus 5
so as to inspect the substrate 2 subjected to the screen printing
by the screen printing apparatus 5 and a component mounting
apparatus is installed on the downstream side of the screen
printing apparatus 5 or on the downstream side of the inspection
apparatus so as to mount components 3 on the substrate 2 on which
paste Pst has been printed by the screen printing apparatus 5.
[0026] In this embodiment, a flow direction of the substrate 2 in
the component mounting line 1 is an in-plane direction (the
right-left direction when viewed from an operator OP) of a
horizontal plane directed from the left side of FIG. 1 to the right
side and is defined as an X axis direction. An in-plane direction
(the frontward-rearward direction when viewed from the operator OP)
of the horizontal plane perpendicular to the X axis direction is
defined as a Y axis direction, and the vertical direction is
defined as a Z axis direction. In this embodiment, the left side of
FIG. 1 corresponds to the upstream side (upstream step side) of the
flow of the substrate 2 and the right side of FIG. 1 corresponds to
the downstream side (downstream step side) of the flow of the
substrate 2.
[0027] In FIGS. 3 and 4, the screen printing apparatus 5 includes a
substrate holding and moving mechanism 12 on a base 11, and a mask
13 in which patterns (a first pattern PT1 and a second pattern PT2
illustrated in FIG. 5) to be printed on the substrate 2 are formed
above the substrate holding and moving mechanism 12. A carrying-in
conveyer 14 as a substrate carrying-in unit delivering a substrate
2 carried in from another apparatus (herein, the substrate supply
apparatus 4) on the upstream process side to the substrate holding
and moving mechanism 12 and a carrying-out conveyer 15 as a
substrate carrying-out unit carrying out the substrate 2 sent out
from the substrate holding and moving mechanism 12 to the component
mounting apparatus 6 on the downstream process side are disposed on
the upstream side (the left side in FIG. 1) in the flow of the
substrate 2 of the substrate holding and moving mechanism 12 on the
base 11. The screen printing apparatus 5 includes a print head 17
moved by a print head moving mechanism 16 and a paste supply
mechanism 18 integrated with the print head 17 above the mask 13,
and includes a camera unit 20 moved in the horizontal plane by a
camera unit moving mechanism 19 below the mask 13.
[0028] In FIG. 4, the substrate holding and moving mechanism 12 of
the screen printing apparatus 5 includes a substrate support unit
21 supporting a substrate 2 and a substrate support unit moving
mechanism 22 moving the substrate support unit 21. The substrate
support unit 21 includes a lifting plate 31 serving as a base, a
pair of conveyers 33 (see FIG. 3) attached to a conveyer support
member 32 extending upward from the lifting plate 31, a lower
holding member 35 being lifted up and down above the lifting plate
31 by a first lifting motor 34 attached to the lifting plate 31,
and a pair of clampers 37 (see FIG. 3) that are disposed above the
conveyers 33 and that are opened and closed in the Y axis direction
by a clamper driving motor 36. The conveyer 33 carries the
substrate 2 received from the carrying-in conveyer 14 in the X axis
direction and positions the substrate as a predetermined clamping
position, and the lower holding member 35 supports the substrate 2
positioned at the clamping position from the bottom side. The
clampers 37 clamp the side surface (the side surfaces facing each
other in the Y axis direction) of the substrate 2 supported by the
lower holding member 35 from the
[0029] Y axis direction. Out of two clampers 37 arranged in the Y
axis direction, the clamper located on the side (the right side of
FIG. 4 which is defined as the front side) of the operator OP is
referred to as a front clamper 37F, and the clamper located on the
opposite side (the left side of FIG. 4 which is defined as the rear
side) of the operator OP is referred to as a rear clamper 37R.
[0030] In FIG. 4, the substrate support unit moving mechanism 22
includes an XY.theta. table 41 that moves a base table 41d in the
horizontal plane by relative movement of a Y table 41a, an X table
41b, and a .theta. table 41c which are stacked on the base 11 and a
second lifting motor 42 that lifts the lifting plate 31 (that is,
the entire substrate support unit 21) relative to the base table
41d. The substrate support unit moving mechanism 22 moves the
substrate support unit 21 holding the substrate 2 (clamping the
substrate with the clampers 37) through the use of the XY.theta.
table 41 and lifts the substrate 2 through the use of the second
lifting motor 42.
[0031] In FIG. 5, the mask 13 has a rectangular panel shape
extending in the XY plane and the outer circumference thereof is
supported by a frame member 13w. In the mask 13, a first
pattern-forming area R1 in which a first pattern PT1 corresponding
to a first type substrate 2 is formed and a second pattern-forming
area R2 in which a second pattern PT2 corresponding to a second
type substrate 2 (for example, the substrate 2 obtained by
reversing the first type substrate 2) is formed are arranged in the
Y axis direction (in a predetermined direction in the horizontal
plane) so as to perform screen printing operations corresponding to
two types of substrates 2 of the first type substrate 2 and the
second type substrate 2 (see FIGS. 6A and 6B).
[0032] In FIG. 3, the carrying-in conveyer 14 is movable in the Y
axis direction (the arrangement direction of the first
pattern-forming area R1 and the second pattern-forming area R2 of
the mask 13) through the use of a carrying-in conveyer moving
mechanism 14a. In FIG. 2, two substrate supply apparatuses 4
disposed on the upstream process side of the screen printing
apparatus 5 are arranged in the Y axis direction, the carrying-in
conveyer 14 can receive a substrate 2 from any of the two substrate
supply apparatuses 4 by moving in the Y axis direction through the
use of the carrying-in conveyer moving mechanism 14a and can
deliver the substrate 2 to either the substrate support unit 21
located below the first pattern-forming area R1 or the substrate
support unit 21 located below the second pattern-forming area R2.
In FIG. 3, the carrying-out conveyer 15 is movable in the Y axis
direction through the use of a carrying-out conveyer moving
mechanism 15a and can receive a substrate 2 from either the
substrate support unit 21 located in the first pattern-forming area
R1 and the substrate support unit 21 located in the second
pattern-forming area R2.
[0033] In FIG. 3, a set of two substrate-side marks 2m is disposed
at diagonal positions of the substrate 2 (only one substrate-side
mark 2m is illustrated in FIG. 3), and a set of two mask-side marks
13m corresponding to the substrate-side marks 2m are disposed in
the first pattern-forming area R1 and the second pattern-forming
area R2 on the mask 13 (see FIG. 5). When the substrate support
unit 21 is lifted up by the second lifting motor 42 and the
substrate 2 held by the substrate support unit 21 is brought into
contact with the mask 13 in a state in which the two substrate-side
marks 2m are matched with the two mask-side marks 13m disposed in
the first pattern-forming area R1 in a plan view, the electrode 2a
of the substrate 2 and the first pattern PT1 of the mask 13 are
matched with each other (FIG. 6A). Similarly, when the substrate
support unit 21 is lifted up by the second lifting motor 42 and the
substrate 2 held by the substrate support unit 21 is brought into
contact with the mask 13 in a state in which the two substrate-side
marks 2m are matched with the two mask-side marks 13m disposed in
the second pattern-forming area R2 in a plan view, the electrode 2a
of the substrate 2 and the second pattern PT2 of the mask 13 are
matched with each other (FIG. 6B). In this way, in this embodiment,
the substrate holding and moving mechanism 12 moves the substrate
support unit 21 holding the substrate 2 in the pattern arrangement
direction (in the Y axis direction) below the mask 13 so as to
selectively bring the substrate 2 in contact with one of the first
pattern-forming area R1 and the second pattern-forming area R2.
[0034] As illustrated in FIGS. 6A and 6B, in this embodiment, an
area on the mask 13 coming in contact with the rear clamper 37R
when the substrate 2 is brought into contact with the first
pattern-forming area R1 of the mask 13 and an area on the mask 13
coming in contact with the front clamper 37F when the substrate 2
is brought into contact with the second pattern-forming area R2 of
the mask 13 are the same area Rm between the first pattern-forming
area R1 and the second pattern-forming area R2. Accordingly, even
when the substrate is brought into contact with any one of the
first pattern-forming area R1 and the second pattern-forming area
R2, the clamper 37 (one of the front clamper 37F and the rear
clamper 37R) is located in the area Rm between the first
pattern-forming area R1 and the second pattern-forming area R2.
[0035] In FIGS. 3 and 4, the print head 17 includes two squeegees
52 arranged to face each other in the Y axis direction below a
movable base 51 extending in the X axis direction. The print head
moving mechanism 16 includes two print head moving ball screws 16a
extending in the Y axis direction to be screwed through the right
and left ends of the movable base 51 and two print head moving
motors 16b rotationally driving the two print head moving ball
screws 16a. When the two print head moving ball screws 16a
synchronously rotates through the use of the two print head moving
motors 16b, the movable base 51 moves in the Y axis direction. The
two squeegees 52 are individually lifted up and down below the
movable base 51 by squeegee lifting cylinders 53 disposed in the
movable base 51. Out of the two squeegees 52 arranged in the Y axis
direction, the squeegee located on the side of the operator OP (the
right side of FIG. 4) is referred to as a front squeegee 52F, and
the squeegee located on the opposite side of the operator OP (the
left side of FIG. 4) is referred to as a rear squeegee 52R.
[0036] In FIGS. 3 and 4, the camera unit 20 includes an upper
imaging camera 20a of which the imaging field of vision faces the
upper side and a lower imaging camera 20b of which the imaging
field of vision faces the lower side. The camera unit moving
mechanism 19 moving the camera unit 20 in the in-plane direction of
the horizontal plane includes a Y axis table 19a extending in the Y
axis direction on the base 11, an X axis table 19b extending in the
X axis direction and moving over the Y axis table 19a, and a
movable plate 19c moving over the X axis table 19b. The camera unit
20 is attached to the movable plate 19c and moves in the horizontal
plane by the movement of the X axis table 19b in the Y axis
direction relative to the Y axis table 19a and the movement of the
movable plate 19c in the X axis direction relative to the X axis
table 19b.
[0037] The paste supply mechanism 18 stores paste Pst therein and
ejects the paste to the lower side. In FIGS. 3 and 4, the paste
supply mechanism 18 is attached to the movable base 51, moves in
the Y axis direction along with the squeegees 52 by the movement of
the movable base 51 in the Y axis direction, and moves in the X
axis direction over the movable base 51. Accordingly, the paste
supply mechanism 18 can freely move in the horizontal plane by the
movement of the movable base 51 in the Y axis direction and the
movement of the paste supply mechanism 18 in the X axis direction
and can supply the paste Pst to any area on the mask 13. The paste
supply mechanism 18 supplies the paste Pst to the area Rm between
the first pattern-forming area R1 and the second pattern-forming
area R2 in a shape extending in the extending direction of the
squeegees 52 (that is, the X axis direction).
[0038] In FIG. 7, the moving operation of the carrying-in conveyer
14 in the Y axis direction by the carrying-in conveyer moving
mechanism 14a, the carrying-in operation of the substrate 2 by the
carrying-in conveyer 14, the moving operation of the substrate 2 to
the clamping position by the conveyers 33, the lifting operation of
the lower holding member 35 by the first lifting motor 34, the
clamping operation of the clampers 37 by the clamper driving motor
36, the moving operation of the substrate support unit 21 in the
horizontal plane by the XY.theta. table 41, the lifting operation
of the substrate support unit 21 by the second lifting motor 42,
the moving operation of the carrying-out conveyer 15 in the Y axis
direction by the carrying-out conveyer moving mechanism 15a, and
the carrying-out operation of the substrate 2 by the carrying-out
conveyer 15 are controlled by the controller 60 of the screen
printing apparatus 5. The moving operation of the print head 17 in
the Y axis direction by the print head moving mechanism 16, the
lifting operations of the squeegees 52 by the squeegee lifting
cylinders 53, the ejecting operation of the paste Pst by the paste
supply mechanism 18, and the moving operation of the camera unit 20
in the horizontal plane by the camera unit moving mechanism 19 are
also controlled by the controller 60.
[0039] In FIG. 7, the upper imaging camera 20a is controlled by the
controller 60 and performs imaging of the mask-side marks 13m
disposed in the first pattern-forming area R1 of the mask 13 and
imaging of the mask-side marks 13m disposed in the second
pattern-forming area R2 of the mask 13. The lower imaging camera
20b is controlled by the controller 60 and images the
substrate-side marks 2m on the substrate 2 held by the substrate
support unit 21. Image data obtained by the imaging of the upper
imaging camera 20a and image data obtained by imaging of the lower
imaging camera 20b are input to the controller 60 and are processed
by an image processing unit 60a of the controller 60. The
controller 60 calculates the positions of the mask-side marks 13m
and the positions of the substrate-side marks 2m on the basis of
the obtained image of the mask-side marks 13m and the obtained
images of the substrate-side marks 2m (imaging results) .
[0040] In FIG. 3, an operation panel 61 with a display device
installed thereon which is operated by the operator OP is disposed
on the front side (the side of the operator OP) of the base 11. The
operation panel 61 is connected to the controller 60 (FIG. 7) , and
the operator OP can input operations of the screen printing
apparatus 5 through the operation panel 61 and can acquire a
variety of information on the screen printing apparatus 5.
[0041] A flow of the screen printing operation using the screen
printing apparatus 5 will be described below with reference to
FIGS. 8A to 11B. When a substrate 2 is sent out from one of two
substrate supply apparatuses 4, the controller 60 activates the
carrying-in conveyer moving mechanism 14a to move the carrying-in
conveyer 14 to a position facing the substrate supply apparatus 4
to send out the substrate 2. Then, the controller 60 causes the
carrying-in conveyer 14 to receive the substrate 2 sent out from
the substrate supply apparatus 4 and activates the XY.theta. table
41 to move the substrate support unit 21 to a position (referred to
as a first position) below the first pattern-forming area R1 or a
position (referred to as a second position) below the second
pattern-forming area R2. Here, which of the first position and the
second position to move the substrate support unit 21 to is
determined by the type (the arrangement of the electrode 2a) of the
substrate 2 received by the carrying-in conveyer 14. The substrate
support unit 21 is located at the first position when the
arrangement of the electrode 2a of the substrate 2 corresponds to
the first pattern PT1, and the substrate support unit 21 is located
at the second position when the arrangement of the electrode 2a of
the substrate 2 corresponds to the second pattern PT2.
[0042] When the substrate support unit 21 is located at the first
position or the second position, the controller 60 moves the
carrying-in conveyer 14 having received the substrate 2 from the
substrate supply apparatus 4 to a position facing the first
position or a position facing the second position. Here, the
controller 60 locates the carrying-in conveyer 14 at the position
facing the first position when the substrate support unit 21 is
located at the first position, and locates the carrying-in conveyer
14 at the position facing the second position when the substrate
support unit 21 is located at the second position.
[0043] When the carrying-in conveyer 14 is located at the position
facing the first position or at the position facing the second
position, the controller 60 activates the carrying-in conveyer 14
and the conveyer 33 of the substrate support unit 21 in cooperation
with each other, carries the substrate 2 in the substrate support
unit 21, and positions the substrate 2 at the clamping position.
Then, when the first lifting motor 34 is activated to lift the
lower holding member 35 up and to support the substrate 2 from the
lower side and the substrate 2 is lifted up from the conveyer 33
(arrow Al in FIG. 8A), the clamper driving motor 36 is activated to
clamp and hold the substrate 2 with the clampers 37 (arrow B1 in
FIG. 8A).
[0044] When the substrate 2 is held by the substrate support unit
21 as described above, the controller 60 moves the camera unit 20
through the use of the camera unit moving mechanism 19 and images
the mask-side marks 13m through the use of the upper imaging camera
20a. The imaging of the mask-side marks 13m is performed on the
mask-side marks 13m in the first pattern-forming area R1 when the
substrate 2 will be brought into contact with the first
pattern-forming area R1, and is performed on the mask-side marks
13m in the second pattern-forming area R2 when the substrate 2 will
be brought into contact with the second pattern-forming area R2.
After the mask-side marks 13m are imaged, the controller 60 images
the substrate-side marks 2m through the use of the lower imaging
camera 20b.
[0045] After the mask-side marks 13m and the substrate-side marks
2m are imaged, the controller 60 activates the substrate holding
and moving mechanism 12 to bring the substrate 2 into contact with
the mask 13 in the same way as described above (arrow C1 in FIG.
8B). Accordingly, the electrode 2a of the substrate 2 is matched
with the pattern (the first pattern PT1 or the second pattern PT2)
of the mask 13 (FIG. 8B).
[0046] After the substrate 2 is brought into contact with the mask
13, the controller 60 causes a paste volume checking apparatus (not
illustrated) to check whether a sufficient amount of paste Pst is
present in the area Rm (on the mask 13 coming in contact with the
front clamper 37F or the rear clamper 37R) between the first
pattern-forming area R1 and the second pattern-forming area R2.
When it is determined that a sufficient amount of paste Pst is not
present, the controller 60 causes the paste supply mechanism 18 to
supply the paste Pst to the area Rm.
[0047] When it is determined that a sufficient amount of paste Pst
is present in the area Rm between the first pattern-forming area R1
and the second pattern-forming area R2 as the result of the paste
volume checking (the paste volume checking performed thereafter
when the paste Pst is supplied by the paste supply mechanism 18),
the controller 60 performs squeegeeing of the paste Pst using the
squeegees 52. In the squeegeeing, the controller 60 moves the
movable base 51 in the Y axis direction and causes the print head
17 to reciprocate (slide) over the first pattern-forming area R1 or
over the second pattern-forming area R2. By this squeegeeing, the
paste Pst is scraped on the mask 13 to fill the pattern of the mask
13, and the paste Pst is printed on the substrate 2.
[0048] In the squeegeeing, when the printing using the first
pattern PT1 is performed on the substrate 2, first, the rear
squeegee 52R is lifted down from above the area Rm between the
first pattern-forming area R1 and the second pattern-forming area
R2 so as to bring the bottom thereof into contact with the rear Rm
(the mask 13 coming in contact with the rear clamper 37R) . With
the contact position (a position in the area Rm between the first
pattern-forming area R1 and the second pattern-forming area R2 on
the mask 13) as a movement start position, the rear squeegee 52R is
moved forward (arrow D1 in FIG. 9A) . When the rear squeegee 52R
slides over the first pattern-forming area R1 on the mask 13 and
reaches above the front clamper 37R, the rear squeegee 52R is
lifted up and the front squeegee 52F is lifted down to come in
contact with the front clamper 37F. The front squeegee 52F is moved
backward from the contact position (arrow D2 in FIG. 9B), and when
the front squeegee 52F slides over the first pattern-forming area
R1 on the mask 13 and is returned to the movement start position on
the rear clamper 37R, the front squeegee 52F is lifted up to be on
standby.
[0049] On the other hand, when the printing using the second
pattern PT2 is performed on the substrate 2, first, the front
squeegee 52F is lifted down from above the area Rm between the
first pattern-forming area R1 and the second pattern-forming area
R2 so as to bring the bottom thereof into contact with the area Rm
(the mask 13 coming in contact with the front clamper 37F) . With
the contact position as a movement start position, the front
squeegee 52F is moved backward (arrow D3 in FIG. 10A) . When the
front squeegee 52F slides over the second pattern-forming area R2
on the mask 13 and reaches above the rear clamper 37R, the front
squeegee 52F is lifted up and the rear squeegee 52R is lifted down
to come in contact with the rear clamper 37R. The rear squeegee 52R
is moved forward from the contact position (arrow D4 in FIG. 10B) ,
and when the rear squeegee 52R slides over the second
pattern-forming area R2 on the mask 13 and is returned to the
movement start position on the front clamper 37F, the rear squeegee
52R is lifted up to be on standby.
[0050] In this way, in the screen printing apparatus 5 according to
this embodiment, the print head 17 prints the paste Pst on the
substrate 2 selectively brought into contact with one of the first
pattern-forming area R1 and the second pattern-forming area R2 by
moving over the mask 13. At this time, the print head 17 sets a
position in the area Rm between the first pattern-forming area R1
and the second pattern-forming area R2 on the mask 13 as the
movement start position and is operated to reciprocate in the Y
axis direction over the first pattern-forming area R1 from the
movement start position and is returned to the movement start
position when the first pattern PT1 is printed on the substrate 2
coming in contact with the first pattern-forming area R1 and to
reciprocate in the Y axis direction over the second pattern-forming
area R2 from the movement start position and is returned to the
movement start position when the second pattern PT2 is printed on
the substrate 2 coming in contact with the second pattern-forming
area R2.
[0051] When the squeegees 52 reciprocates to fill the pattern of
the mask 13 with the paste Pst and to print the paste Pst on the
substrate 2, the controller 60 activates the second lifting motor
42 to lift down the lifting plate 31 (arrow C2 in FIG. 11A) and
separates the substrate 2 from the mask 13 to perform substrate
separation (FIG. 11A). Accordingly, the screen printing operation
for each substrate 2 ends.
[0052] When the screen printing operation for each substrate 2
ends, the controller 60 opens the clampers 37 (arrow B2 in FIG.
11B), lifts down the lower holding member 35 (arrow A2 in FIG.
11B), and places the substrate 2 on the conveyer 33 (FIG. 11B).
Then, the conveyer 33 and the carrying-out conveyer 15 are
activated in cooperation with each other to carry out the substrate
2 to the first component mounting apparatus 6 downstream from the
screen printing apparatus 5. After the substrate 2 is carried out,
the controller 60 determines whether a substrate 2 not yet
subjected to the screen printing is present. As a result, the
substrate 2 is carried in by the carrying-in conveyer 14 when a
substrate 2 not yet subjected to the screen printing is present,
and the series of operations end when a substrate 2 not subjected
to the screen printing is not present.
[0053] In the screen printing operation, the print head 17
reciprocates over the first pattern-forming area R1 or over the
second pattern-forming area R2 from the movement start position in
the area Rm between the first pattern-forming area R1 and the
second pattern-forming area R2 on the mask 13 and prints the paste
Pst on the substrate 2. Accordingly, for example, when the second
pattern PT2 is printed on the second type substrate 2 after the
first pattern PT1 is printed on the first type substrate 2 as well
as when the first pattern PT1 is printed on the first type
substrate 2 after the first pattern PT1 is printed on the first
type substrate 2, the paste Pst is present at the movement start
position which is the start position of reciprocation and it is
thus possible to use the paste Pst on the mask 13 without any
waste. Accordingly, it is possible to reduce the amount of paste
Pst that is wasted. The paste Pst on the mask 13 is returned to the
area Rm between the first pattern-forming area R1 and the second
pattern-forming area R2 on the mask 13 after the printing.
Accordingly, even when different types of substrates 2 are carried
in randomly (that is, even when the substrate 2 is carried in any
one of the first pattern-forming area R1 and the second
pattern-forming area R2), the printing operation can be immediately
started.
[0054] In FIGS. 1 and 2, each component mounting apparatus 6
includes two substrate carrying lanes 72 (the first substrate
carrying lane 72a or the second substrate carrying lane 72b)
arranged in the pattern arrangement direction (Y axis direction) on
the mask 13 of the screen printing apparatus 5 and working devices
6a corresponding to the component mounting-relevant operations for
the first type substrate 2 and the second type substrate 2.
[0055] The component mounting apparatus 6 carries and positions the
substrate 2 received from the screen printing apparatus 5 through
the use of the first substrate carrying lane 72a or the second
substrate carrying lane 72b and performs a predetermined component
mounting-relevant operation through the use of the working device
6a. For example, when the operation is an inspection operation of
the substrate 2 on which the paste Pst has been printed by the
screen printing apparatus 5, the working device 6a is an inspection
head. When the operation is a component mounting operation of
picking up a component 3 from a component supply unit and mounting
the component 3 on the substrate 2, the working device 6a is a
mounting head. When the predetermined component mounting-relevant
operation is ended by the working device 6a, the component mounting
apparatus 6 activates the substrate carrying lane 72 to carry out
the substrate 2 to the downstream process side.
[0056] In this way, each component mounting apparatus 6 installed
on the downstream side of the screen printing apparatus 5 includes
the first substrate carrying lane 72a and the second substrate
carrying lane 72b which are arranged in the arrangement direction
(Y axis direction) of the patterns (the first pattern PT1 and the
second pattern PT2) of the mask 13 in the screen printing apparatus
5, carries the first type substrate 2 on which the first pattern
PT1 has been printed in the first substrate carrying lane 72a,
performs the component mounting-relevant operation (first operation
step) on the substrate 2, carries the second type substrate 2 on
which the second pattern PT2 has been printed in the second
substrate carrying lane 72b, and performs the component
mounting-relevant operation (second operation step) on the
substrate 2.
[0057] On the other hand, the screen printing apparatus 5 may store
substrate carrying-in order data 60D which is determined so that
alternate carrying-in in which the first type substrate 2 and the
second type substrate 2 are alternately carried in and continuous
carrying-in in which the substrate 2 on a short line tact time side
out of the first type substrate 2 and the second type substrate 2
is continuously carried in are mixed, in a storage unit 60b of the
controller 60 (FIG. 7). The controller 60 carries in the substrate
2 on the basis of the substrate carrying-in order data 60D.
Hereinafter, an operation example of the component mounting line 1
will be described with reference to FIGS. 12 to 14. It is assumed
that the screen printing apparatus 5 completes a screen printing
operation within an operation time of 10 seconds after the
substrate 2 is carried in from the substrate supply apparatus 4. It
is assumed that the screen printing apparatus 5 carries out the
substrate 2 (A substrate) to the first substrate carrying lane 72a
of the component mounting apparatus 6 on the immediately downstream
side thereof when the substrate 2 subjected to the screen printing
is the first type substrate 2 (which is denoted by reference sign
"A" in FIGS. 12 to 14 and referred to as A substrate), and carries
out the substrate 2 (B substrate) to the second substrate carrying
lane 72b of the component mounting apparatus 6 on the immediately
downstream side thereof when the substrate 2 subjected to the
screen printing is the second type substrate 2 (which is denoted by
reference sign "B" in FIGS. 12 to 14 and referred to as B
substrate). It is also assumed that each component mounting
apparatus 6 completes the component mounting-relevant operation
(first operation step) on the A substrate within an operation time
of 20 seconds and completes the component mounting-relevant
operation (second operation step) on the B substrate within an
operation time of 30 seconds. The "operation time" includes a
period of time required for carrying in the substrate 2 and a
period of time required for carrying out the substrate 2.
[0058] When the component mounting line 1 starts production, the
screen printing apparatus 5 receives an A substrate from the
substrate supply device 4 and carries in to the substrate support
unit 21 (FIG. 12(a)). After 10 seconds passes thereafter, the
screen printing apparatus 5 carries out the A substrate subjected
to the screen printing to the first substrate conveying lane 72a of
the component mounting apparatus 6 on the immediately downstream
side via the carrying-out conveyer 15 and carries a B substrate
from the substrate supply apparatus 4 to the substrate support unit
21 (FIG. 12(b), alternate carrying-in step). After 10 seconds
passes from the state illustrated in FIG. 12(b), the component
mounting apparatus 6 does not complete the component
mounting-relevant operation and the screen printing apparatus 5
carries out the B substrate subjected to the screen printing to the
second substrate carrying lane 72b of the component mounting
apparatus 6 on the immediately downstream side and carries in the A
substrate from the substrate supply apparatus (FIG. 12(c),
alternate carrying-in step). "X seconds remain" described in FIGS.
12 to 14 represents for how long, in seconds, the A substrate or
the B substrate stays in the corresponding component mounting
apparatus 6, that is, in how many seconds the A substrate or the B
substrate is carried out to the component mounting apparatus 6 on
the downstream side.
[0059] After 10 seconds passes from the state illustrated in FIG.
12(c), since each component mounting apparatus 6 does not complete
the component mounting-relevant operation on the B substrate but
completes the component mounting-relevant operation on the A
substrate, the component mounting apparatus 6 carries out the A
substrate to the component mounting apparatus 6 on the downstream
side thereof (the second component mounting apparatus 6 downstream
from the screen printing apparatus 5). The screen printing
apparatus 5 carries out the A substrate subjected to the screen
printing to the component mounting apparatus 6 and carries in the B
substrate from the substrate supply apparatus 4 (FIG. 12(d),
alternate carrying-in step). After 10 seconds passes from the state
illustrated in FIG. 12(d), each component mounting apparatus 6 does
not complete the component mounting-relevant operation on both the
A substrate and the B substrate and the screen printing apparatus 5
carries the B substrate subjected to the screen printing to the
carrying-out conveyer 15 to be on standby, and carries in the A
substrate from the substrate supply apparatus 4 (FIG. 13(a),
alternate carrying-in step).
[0060] After 10 seconds passes from the state illustrated in FIG.
13(a), each component mounting apparatus 6 completes the component
mounting-relevant operation on both the A substrate and the B
substrate and thus the component mounting apparatuses 6 carries out
the A substrate and the B substrate to the component mounting
apparatus 6 on the downstream side thereof. The screen printing
apparatus 5 carries out the B substrate on standby in the
carrying-out conveyer 15 and the A substrate subjected to the
screen printing to the component mounting apparatus 6 and
subsequently carries in the A substrate from the substrate supply
apparatus 4 (FIG. 13(b), continuous carrying-in step). After 10
seconds passes thereafter, each component mounting apparatus 6 does
not complete the component mounting-relevant operations on the A
substrate and the B substrate, and the screen printing apparatus 5
carries the A substrate subjected to the screen printing to the
carrying-out conveyer 15 to be on standby and carries in the B
substrate from the substrate supply apparatus 4 (FIG. 13(c),
alternate carrying-in step).
[0061] After 10 seconds passes from the state illustrated in FIG.
13(c), since each component mounting apparatus 6 does not complete
the component mounting-relevant operation on the B substrate but
completes the component mounting-relevant operation on the A
substrate, the component mounting apparatus 6 carries out the A
substrate to the component mounting apparatus 6 on the downstream
side thereof. The screen printing apparatus 5 carries out the A
substrate subjected to the screen printing to the component
mounting apparatus 6, carries the B substrate subjected to the
screen printing to the carrying-out conveyer 15 to be on standby,
and carries in the A substrate from the substrate supply apparatus
4 (FIG. 13(d), alternate carrying-in step). After 10 seconds passes
from the state illustrated in FIG. 13(d), since each component
mounting apparatus 6 does not complete the component
mounting-relevant operation on the A substrate but completes the
component mounting-relevant operation on the B substrate, the
component mounting apparatus 6 carries out the B substrate to the
component mounting apparatus 6 on the downstream side thereof, and
the screen printing apparatus 5 carries out the B substrate on
standby in the carrying-out conveyer 15 to the component mounting
apparatus 6, carries the A substrate subjected to the screen
printing to the carrying-out conveyer 15 to be on standby, and
carries in the B substrate from the substrate supply apparatus 4
(FIG. 14(a), alternate carrying-in step).
[0062] After 10 seconds passes from the state illustrated in FIG.
14(a), each component mounting apparatus 6 does not complete the
component mounting-relevant operation on the B substrate but
completes the component mounting-relevant operation on the A
substrate, and thus the screen printing apparatus 5 carries out the
A substrate on standby in the carrying-out conveyer 15 to the
component mounting apparatus 6, carries the B substrate subjected
to the screen printing to the carrying-out conveyer 15 to be on
standby, and carries in the A substrate from the substrate supply
apparatus 4 (FIG. 14(b), alternate carrying-in step). After 10
seconds passes from the state illustrated in FIG. 14(b), each
component mounting apparatus 6 does not complete the component
mounting-relevant operations on both the A substrate and the B
substrate and the screen printing apparatus 5 is on standby (FIG.
14(c)).
[0063] After 10 seconds passes from the state illustrated in FIG.
14(c), since each component mounting apparatus 6 completes the
component mounting-relevant operation on both the A substrate and
the B substrate, the component mounting apparatus 6 carries out the
A substrate and the B substrate to the component mounting apparatus
6 on the downstream side thereof. The screen printing apparatus 5
carries out the B substrate on standby in the carrying-out conveyer
15 and the A substrate subjected to the screen printing to the
component mounting apparatus 6 on the immediately downstream side
thereof, carries in the A substrate from the substrate supply
apparatus 4 (FIG. 14(d), continuous carrying-in step). The state
illustrated in FIG. 14(d) is the same as the state illustrated in
FIG. 13(b), except that the number of A substrates in the component
mounting apparatuses 6 increases by three and the number of B
substrates increases by two. Accordingly, the screen printing
apparatus 5 and the component mounting apparatuses 6 operate as
shown in FIG. 14 (d).fwdarw.FIG. 13(c).fwdarw.FIG.
13(d).fwdarw.FIG. 14(a).fwdarw.FIG. 14(b).fwdarw.FIG.
14(c).fwdarw.FIG. 14(d) and repeat this cycle.
[0064] Accordingly, each component mounting apparatus 6 can
maintain the period of time required for the component
mounting-relevant operation on the A substrate to be 20 seconds and
can maintain the period of time required for the component
mounting-relevant operation on the B substrate to be 30 seconds,
and thus a standby time is not required for the carrying-in and
carrying-out of the substrate 2 in the component mounting line 1.
In the aforementioned example, the screen printing apparatus 5
repeats a set of carrying-in of A substrate.fwdarw.carrying-in of B
substrate.fwdarw.carrying-in of A substrate.fwdarw.carrying-in of B
substrate.fwdarw.carrying-in of A substrate in order to perform the
screen printing at the inverse ratio (3:2) of the ration (2:3) of
the line tact time 20 seconds for the A substrate and the line tact
time of 30 seconds for the B substrate. That is, in the substrate
carrying-in order data 60D stored in the storage unit 60b of the
controller 60, the continuous carrying-in step is periodically
repeated and the period thereof is determined on the basis of the
line tact time of the first type substrate 2 (A substrate) and the
line tact time of the second type substrate 2 (B substrate). In
this embodiment, the continuous carrying-in step is performed with
the period in which one continuous carrying-in step is performed
whenever four alternate carrying-in steps are performed.
[0065] In the component mounting line 1 (component mounting method)
according to this embodiment, the aforementioned advantage is
obtained because the screen printing apparatus mixes and performs
the alternate carrying-in step of alternately carrying in the A
substrate (the first type substrate 2) and the B substrate (the
second type substrate 2) and the continuous carrying-in step of
continuously carrying the substrate 2 on a short line tact time
side (herein, the A substrate) out of the A substrate and the B
substrate.
[0066] When the continuous carrying-step is not performed, the B
substrate instead of the A substrate is carried in to the screen
printing apparatus 5 after the state illustrated in FIG. 13(a).
However, in this case, even when each component mounting apparatus
6 carries out the A substrate subjected to the component
mounting-relevant operation to the downstream side, the screen
printing apparatus 5 can carry out the A substrate to the component
mounting apparatus 6 only after carrying out the B substrate.
Accordingly, the component mounting apparatus 6 on the immediately
downstream side cannot carry in the A substrate from the screen
printing apparatus 5 in spite of the state in which it can carry in
the A substrate, and thus the standby time in the component
mounting line 1 is required.
[0067] As described above, in the component mounting line 1
(component mounting method) according to this embodiment, since the
screen printing apparatus 5 mixes and performs the alternate
carrying-in step of alternately carrying in the first type
substrate 2 (the A substrate) and the second type substrate 2 (the
B substrate) and the continuous carrying-in step of continuously
carrying the substrate 2 on a short line tact time side (herein,
the A substrate) out of the first type substrate 2 and the second
type substrate 2 and the screen printing apparatus 5 continuously
carries in the substrate 2 (A substrate) on a short line tact time
at a predetermined ratio, it is possible to change the carrying-in
ratio based on the difference between the line tact times of two
types of substrates 2 and thus to prevent a problem (a problem that
the component mounting apparatus 6 can carry in the substrate 2 on
a short line tact time but cannot because the substrate 2 on a long
line tact time is not carried out from the screen printing
apparatus 5) occurring when only the alternate carrying-in is
repeated, thereby preventing a decrease in production efficiency of
the component mounting line 1.
[0068] It is possible to provide a component mounting line and a
component mounting method that can prevent a decrease in production
efficiency of the component mounting line for sequentially
performing a printing operation on two types of substrates having
different line tact times using a single mask, performing a
component mounting-relevant operation on the substrate with a
longer line tact time in one substrate carrying lane on the
downstream side thereof, and performing a component
mounting-relevant operation on the substrate with a shorter line
tact time in the other substrate carrying lane.
* * * * *